铁路枢纽小运转列车径路优化

以枢纽小运转列车运营成本和货运站装卸费用最小为目标,考虑载重量、列车数和运行时间约束,建立了枢纽小运转列车路径优化模型.并以某铁路枢纽地区为例,运用ILOG CPLEX优化软件仿真求解,得出枢纽小运转列车的最优路径方案.实例证明模型是有效可行的,与实际运行比较,优化后的费用降低近5%,运输距离缩短近8.31%.     

基于动态聚簇结构的无线传感网络在海上通信中的应用

无线传感网络在海上无线通信系统中的应用越来越广泛,而受到海上环境的影响,网络的能量消耗及生命周期是衡量海上无线传感网络最重要的性能参数。传统无线传感网络的数据传输在单个节点之间进行传递,效率较低,而现有的基于簇结构的无线传感网络,把传感网络中的所有传感器节点按照一定的逻辑结构进行划分,增加了系统的传输效率。本文在研究现有的无线传感网络基础上,提出一种基于动态聚簇结构的无线传感网络,并进行仿真。     

汽车轻量化开展流程及方法研究

虽然国内汽车轻量化技术有了较快的发展,但在系统性开展轻量化工作的流程和方法上依然在摸索中前进.本文通过研究国内外轻量化开展现状,初步搭建了整车轻量化开展流程,制定出一套完整的重量管控流程,尝试提出了整车轻量化新的评价方法,努力推动建立一套规范的、切实可行的轻量化工作流程体系,以促进汽车主机厂降重节能减排的顺利实施以及轻...     

气垫船的回顾与展望

回顾了中国船舶及海洋工程设计研究院（MARIC）40年来在气垫船、研究方面所取得的主要成就,分析了该类高性能船舶的市场需求,并提出了未来研究和发展的初步构想。     

层次分析法在运载器系统中应用研究

该文应用层次分析法研究水下运载器各子系统或部件对总体性能重要程度,在对运载器进行层次结构建模基础上,根据表征各元素间看要性关系,形成单一准则下判断矩阵,构造系统的加权超矩阵,得到系统的极限相对排序（LIP）,最后给出了部分计算分析结果。     

纯电动物流车电动空气压缩机布置方案研究

电动空气压缩机为纯电动物流车提供压缩气源,以供整车制动及辅助用气装置的使用.文章基于整车性能的受影响程度进行电动空气压缩机布置的多方案分析,从多个维度进行客观评价,选取适合于整车的最优方案.此方法亦可用作其他关键件的布置校核.     

汽车电动真空泵设计及应用

电动真空泵是电动汽车真空制动系统重要的零件,该文介绍电动真空泵的结构、工作原理,以及电动真空泵的三个重要性能;通过真空制动系统对真空源的需求,探讨电动真空泵的选型和整车布置。     

基于Intergraph Smart 3D的邮轮电缆自动敷设功能优化开发

Intergraph Smart 3D软件的电缆敷设功能在化工电力行业应用较为广泛,考虑到邮轮电气生产设计中的电缆具有长度长(3 000 km～5 000 km)、种类多、通道网络复杂和分段敷设的特点,直接应用Smart 3D原生的电缆敷设功能进行电缆敷设存在较大的风险。从邮轮电缆敷设需求出发,对Smart 3D原生电缆敷设解决方案进行优化,充分考虑电气设计人员的使用习惯,基于贪心算法和单源最短路径算法(Dijkstra算法)优化算法解决断续托架的电缆敷设和电缆分区敷设最优路径选取的问题,提高电气设计人员的电缆敷设效率。     

Benefit of speed reduction for ships in different weather conditions

Currently, the shipping industry is facing a great challenge of reducing emissions. Reducing ship speeds will reduce the emissions in the immediate future with no additional infrastructure. However, a detailed investigation is required to verify the claim that a 10% speed reduction would lead to 19% fuel savings (Faber et al., 2012).This paper investigates fuel savings due to speed reduction using detailed modeling of ship performance. Three container ships, two bulk carriers, and one tanker, representative of the shipping fleet, have been designed. Voyages have been simulated by modeling calm water resistance, wave resistance, propulsion efficiency, and engine limits. Six ships have been simulated in various weather conditions at different speeds. Potential fuel savings have been estimated for a range of speed reductions in realistic weather.It is concluded that the common assumption of cubic speed-power relation can cause a significant error in the estimation of bunker consumption. Simulations in different seasons have revealed that fuel savings due to speed reduction are highly weather dependent. Therefore, a simple way to include the effect of weather in shipping transport models has been proposed.Speed reduction can lead to an increase in the number of ships to fulfill the transport demand. Therefore, the emission reduction potential of speed reduction strategy, after accounting for the additional ships, has been studied. Surprisingly, when the speed is reduced by 30%, fuel savings vary from 2% to 45% depending on ship type, size and weather conditions. Fuel savings further reduce when the auxiliary engines are considered.     

Multiple criteria optimization method for the vehicle assignment problem in a bus transportation company

A vehicle assignment problem (VAP) in a road, long‐haul, passenger transportation company with heterogeneous fleet of buses is considered in the paper. The mathematical model of the VAP is formulated in terms of multiobjective, combinatorial optimization. It has a strategic, long‐term character and takes into account four criteria that represent interests of both passengers and the company's management. The decision consists in the definition of weekly operating frequency (number of rides per week) of buses on international routes between Polish and Western European cities. The VAP is solved in a step‐wise procedure. In the first step a sample of efficient (Pareto‐optimal) solutions is generated using an original metaheuristic method called Pareto Memetic Algorithm (PMA). In the second step this sample is reviewed and evaluated by the Decision Maker (DM). In this phase an interactive, multiple criteria analysis method with graphical facilities, called Light Beam Search (LBS), is applied. The method helps the DM to define his/her preferences, direct the search process and select the most satisfactory solution.